The Interaction between Pesticide Use and Genetic Variants Involved in Lipid Metabolism on Prostate Cancer Risk
Table 2
Associations between intensity-weighted lifetime days of pesticide use and prostate cancer risk by lipid metabolism variants where FDR interaction <0.21.
Pesticide
Gene
SNP
SNP region
Genotype
Nonexposed
Low exposed
High exposed
Exposure trend
interaction2
FDR interaction1,2
Case/control
Case/control
Case/control
ALOXE3 (epidermis-type lipoxygenase 3)
rs3027208
IVS7+369G>A
CC CT+TT
307/576 99/227
REF REF
102/195 43/55
0.99 1.86
(0.74–1.31) (1.16–2.99)
0.93 0.01
81/188 50/60
0.81 2.00
(0.60–1.10) (1.28–3.15)
0.18 0.00
0.91 1.45
(0.79–1.05) (1.16–1.81)
0.22 0.001
0.001
0.08
Terbufos
SEC14L2 (SEC14-like protein 2)
rs2072159
IVS2−93G>A
GG AG+AA
201/457 204/342
REF REF
83/139 61/108
1.38 0.97
(0.99–1.92) (0.67–1.40)
0.05 0.88
82/132 47/115
1.43 0.70
(1.03–1.99) (0.48–1.03)
0.03 0.07
1.21 0.86
(1.03–1.42) (0.71–1.03)
0.02 0.10
0.003
0.15
ADIPOR1 (adiponectin receptor 1)
rsl2733285
IVS1−1748G>A
CC CT+TT
183/421 223/372
REF REF
74/123 70/126
1.39 0.96
(0.98–1.96) (0.68–1.35)
0.07 0.80
80/131 51/117
1.43 0.75
(1.02–1.99) (0.52–1.10)
0.04 0.14
1.21 0.88
(1.03–1.43) (0.74–1.05)
0.02 0.16
0.01
0.18
1Accounts for 220 SNPs included in interaction analyses.
2Risk estimates adjusted for age and state.
